Genetic mutation: Difference between revisions

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'''Genetic mutation- '''this term indicates an alteration to base sequence in [[DNA|DNA]] of an organism which results in a mutant [[Allele|allele]] of a [[Gene|gene]] i.e. an allele that occurs in less than 1% of population.The change is heritable and can be passed on to offspring if fixed into the parental [[Genome|genome]]. Mutations can vary depending on the type of genomic alteration:  
'''Genetic mutation- '''this term indicates an alteration to base sequence in [[DNA|DNA]] of an organism which results in a mutant [[Allele|allele]] of a [[Gene|gene]] i.e. an allele that occurs in less than 1% of population. The change is heritable and can be passed on to offspring if fixed into the parental [[Genome|genome]]. Mutations can vary depending on the type of genomic alteration:  


*addition
*addition  
*deletion
*deletion  
*substitution
*substitution  
*rearrangement of bases.
*rearrangement of bases.


To investigate the events leading to mutation we can look at mutagenesis process. There are three types:  
To investigate the events leading to mutation we can look at the 3 types of mutagenesis process:  


*spontaneous (no mutation causing agent)
*spontaneous (no mutation causing agent)  
*induced (a foreign genome introduced e.g.in the laboratory)
*induced (a foreign genome introduced e.g.in the laboratory)  
*directed (in vitro change to genome).<br>
*directed (''in vitro'' change to the genome).


We can calculate the rate of mutation occurance using an equation from Poisson distribution:  
We can calculate the rate of mutation occurance using an equation from Poisson distribution:  


'''P<sub>0</sub>=e<sup>-mN</sup>'''<sup></sup>&nbsp;
'''P<sub>0</sub>=e<sup>-mN</sup>'''<sup></sup>  


where P<sub>0</sub> is the probability of seeing no mutations, N is the number of cells per culture and m is the mutation rate <ref>Genetics, 1987, Geoffrey Zubay</ref><ref>Encyclopedia of Genetics,Volume 3, 2002, S.Brenner,J.H. Miller</ref>.<br>
where P<sub>0</sub> is the probability of seeing no mutations, N is the number of cells per culture and m is the mutation rate <ref>Genetics, 1987, Geoffrey Zubay</ref><ref>Encyclopedia of Genetics,Volume 3, 2002, S.Brenner,J.H. Miller</ref>.  
===


<references /><br>
=== References  ===
 
<references />  


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Latest revision as of 09:34, 18 November 2017

Genetic mutation- this term indicates an alteration to base sequence in DNA of an organism which results in a mutant allele of a gene i.e. an allele that occurs in less than 1% of population. The change is heritable and can be passed on to offspring if fixed into the parental genome. Mutations can vary depending on the type of genomic alteration:

  • addition
  • deletion
  • substitution
  • rearrangement of bases.

To investigate the events leading to mutation we can look at the 3 types of mutagenesis process:

  • spontaneous (no mutation causing agent)
  • induced (a foreign genome introduced e.g.in the laboratory)
  • directed (in vitro change to the genome).

We can calculate the rate of mutation occurance using an equation from Poisson distribution:

P0=e-mN

where P0 is the probability of seeing no mutations, N is the number of cells per culture and m is the mutation rate [1][2].

References

  1. Genetics, 1987, Geoffrey Zubay
  2. Encyclopedia of Genetics,Volume 3, 2002, S.Brenner,J.H. Miller


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